Calcineurin is required in urinary tract mesenchyme for the development of the pyeloureteral peristaltic machinery
Ching-Pin Chang, … , Gerald R. Crabtree, Feng Chen
Ching-Pin Chang, … , Gerald R. Crabtree, Feng Chen
Published April 1, 2004
Citation Information: J Clin Invest. 2004;113(7):1051-1058. https://doi.org/10.1172/JCI20049.
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Calcineurin is required in urinary tract mesenchyme for the development of the pyeloureteral peristaltic machinery

Abstract

Congenital obstructive nephropathy is the principal cause of renal failure in infants and children. The underlying molecular and cellular mechanisms of this disease, however, remain largely undetermined. We generated a mouse model of congenital obstructive nephropathy that resembles ureteropelvic junction obstruction in humans. In these mice, calcineurin function is removed by the selective deletion of Cnb1 in the mesenchyme of the developing urinary tract using the Cre/lox system. This deletion results in reduced proliferation in the smooth muscle cells and other mesenchymal cells in the developing urinary tract. Compromised cell proliferation causes abnormal development of the renal pelvis and ureter, leading to defective pyeloureteral peristalsis, progressive renal obstruction, and, eventually, fatal renal failure. Our study demonstrates that calcineurin is an essential signaling molecule in urinary tract development and is required for normal proliferation of the urinary tract mesenchymal cells in a cell-autonomous manner. These studies also emphasize the importance of functional obstruction, resulting from developmental abnormality, in causing congenital obstructive nephropathy.

Authors

Ching-Pin Chang, Bradley W. McDill, Joel R. Neilson, Heidi E. Joist, Jonathan A. Epstein, Gerald R. Crabtree, Feng Chen

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Figure 8

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No developmental defects in the innervation of the urinary system in the...
No developmental defects in the innervation of the urinary system in the mutants. (A and B) Immunostaining with an anti-neurofilament (NF) antibody revealed similar numbers of nerve fibers per transverse section between the control (A) and its littermate mutant at P1. (C and D) DAPI-stained sections from A and B, revealing the nuclei of the cells. (E) By counting only the nerve fibers occupying more than one-tenth the size of a nucleus of an average SMC, we found that the average numbers of nerve fibers are similar between the control samples and the mutant samples.